Vortex shedding around a heated square cylinder under the influence of buoyancy

## Abstract In this paper the vortex shedding around a heated/cooled circular cylinder is numerically simulated by solving the time‐dependent Navier‐Stokes and energy equations. A finite element method that is referred to as the three‐step Taylor‐Galerkin method is used to compute these equations.

Calculations of unsteady 2D ¯ow around a square cylinder at incidence a 0 45 are presented. The Reynolds numbers are low (Re 45±200) so that the ¯ow is presumably laminar. A von Ka Ârma Ân vortex sheet is predicted behind the cylinders with a periodicity which agrees well with experiments. An incomp

Numerical calculations of the flow around a square cylinder (prism) oscillating in line with the mean flow are reported for a Reynolds number Re = 200. The unsteady forces on the cylinder are evaluated dependent on the frequency and amplitude of the cylinder motion. The interaction of vortex sheddin

Numerical calculations of the flow around a square cylinder (prism) oscillating in line with the mean flow are reported for a Reynolds number \(\operatorname{Re}=200\). The unsteady forces on the cylinder are evaluated dependent on the frequency and amplitude of the cylinder motion. The interaction